US1528071A - Selective transfer switch - Google Patents

Description

1,528,071 0. MOL. MOSS ET AL SELECTIVE TRANSFER SWITQH Filed June 3, 1921 INVENTORS WITNESSS. Char/e5 44%.. M qss & Fr a n/r M 5////7//778/' ATTORNEY Patented Mar. 3, 1925.

UNITED STATES PATENT OFFICE.

CHARLES McL. MOSS, 0F PITTSBURGH, AND FRANK M. BILLHIIVIER, OF WILKINS- IBURG, PENNSYLVANIA, ASSIGNGB-S T0 WESTINGHOUSE ELECTRIC AND MANU- FACTURING- GOMPANY, A CORPORATION OF PENNSYLVANIA.

SELECTIVE TRANSFER- SWITCH.

Application filed June 3,

To all whom it may concern:

Be it known that we, CHARLES MoL. Moss, a citizen of the United States, and a resident of Pittsburgh, in the county oi Allegheny and State of Pennsylvania, and FRANK M. BILLHIMER, a citizen of the United States, and a resident of l lillrinsburg, in the county of Allegheny and State of Pennsylvania, have invented a new and useful improvement in Selective Transfer Switches, of which the following is a specification.

Our invention relates to selective transfer systems and particularly to such systems as are automatic in their operation.

One object of our invention is to provide a transfer system for a plurality of sources of energy that shall maintain an electric circuit energized continuously.

Another object of our invention is to provide a system of the above-indicated character embodying means whereby one of the sources of energy may be connected to the circuit in a predetermined sequence 01 selection depending upon the condition of the sources preceding in the predetermined sequence.

Another object of our invention is to provide a system of the above-indicated character that shall be simple and inexpensive in construction and reliable in its operation.

In operating railway signals and semaphores, it is essential that .the control bus from which the operating energy is derived shall always be energized. To obtain the continuous energization of such a bus, it is necessary to provide more than one source of electrical energy in order that the control bus may be transferred from one source of energy, when that source becomes faulty, to another source of energy that is normal.

It is also desirable that the various sources of energy be connected to the bus in a pre determined sequence. Thus, if the firstof a plurality of sources becomes faulty and inoperative, the connections should be automatically transferred to connect the bus to the second source.

Similarly, if the second source should be come faulty while the first source remains faulty, the bus circuit should be transferred to a third source of energy. If, after the third source has been supplying energy to 1921. Serial No. 474,790.

the bus, either the first or the second source should become normal, it is desirable that the control bus be transferred from the third source to either the first or the second source that has meanwhile become normal.

in practicing our invention, we employ a plurality of sources of elect-romotive force illustrated herein as four sources. To control the connection of these sources of electromotive force to a control bus, we provide three circuit interrupters and three relays t'or severally controlling the interrupt ers. The relay associated with the first source is connected directly thereacross and, when energized, is adapted to eil'ect the closing of the first interrupter to connect the first source or energy to the bus.

The energizing circuit of the second relay, that controls the actuation of the corresponding interrupter to connect the second source of electromotive force to the bus circuit, is completed through a plurality of contact members controlled bv the relay associated with, and controlled by, the first source. These contacts are open while the relay associated with the first source is energized, and are closed when that relay is dee-nergized. Thus, the second relay cannot be energized while the first relay is energized and is in an operative position, but may be come energized upon the de-energization oi the relay associated with the first source.

Similarly, the energized circuit of the relay associated with the third source is completed through two sets of contact members severally controlled by the relays associated with the first two sources of energ hen either relay is operating, the third relay cannot be energized but when both the first and the second relays are tie-energized, the third may be energized if the third source of electromotive force is normal.

If the first three sources of electromotive force are inoperative, none of the relays become energized to connect any one of those sources to the control circuit. The corresponding interrupters of the three sources are therefore opened. Under such conditions, the fourth source 01 energy is adapted to be connected to the control circuit through three sets of contact members that are severally controlled by the circuit interrupters.

The single figure of the accompanying drawing is a diagrammatic view of an electrical system embodying our invention.

Referring to the diagram, in which all of the operatingdevices are shown in their de-energized position, a plurality of sources of electromotive force 1, 2, 3 and 4, respectively, are employed to supply energy to a control circuit 5 in a predetermined sequence of selection. The selective connection of the sources of electromotive force may be effected manually by means of four singlepole, double-throw switches 6, 7, 8 and 9 or may be controlled automatically by means of a plurality of circuit interrupters 10, 11

and 12. The actuation of the interrupters 10, 11 and 12 to connect the corresponding sources of energy to the control circuit 5 is controlled by a plurality of relays 13,1 1 and 15, respectively, that are adapted to be connected across the corresponding sources of energy under predetermined conditions.

In order that rugged relays and interrupters may be employed for effective service, a sensitive voltage relay 16 is employed to control the relays 13, 1e and 15 in accordance with the condition of the corresponding sources of energy and to obviate the necessity of different'settings for the various relays. That is, the relays 13, 14 and 15 are permitted to operate at a definite voltage, whereas the voltage relay 16 serves to control those relays in accordance with the con ditions of the various sources of energy.

When it is desired to operate the system manually, a four-pole, single-throw switch 17 is employed to disconnect the automatic relays and interrupters from the several sources ofenergy and the switches 6, 7, 8 and 9 are closed on the left side depending upon which source of energy is to be connected to the control circuit 5.

hen the first circuit is to be connected to the bus circuit 5, only the switch 6 is closed in its left-hand position and the other switches 7, 8 and 9 are closed in their right hand positions. If the first source should become faulty, switch 7 would thereupon be closed in its left-hand position and switches 8 and 9 would be left in their previous positions. Similarly, switches 8 and 9 would be closed in their left-hand positions when theconnection of either of the other sources 3 or 4: to the control circuit 5 should be desired.

When it is desired to operate the system automatically, the switch 17 is closed and the single-pole switches 6, 7, 8 and 9 are closed in their right hand positions. Assuming that all the sources 1., 2, 3 and 4- are normal, the operating coil 18 of the relay 13 becomes energized and that relay closes two switches 19 and 20 and opens two sets of contact members 21 and 22, respectively.

The switch 19, when closed, completes a circuit from the source 1 through the operating coil of the interrupter 10,'which is thereupon actuated to close switches 23 leand a set of co-ntactmembers28 controlled by the relay 15 through a relay bus conductor 29 and the operating coil 30 of the voltage relay 16. The relay 16, upon be: coming energized, ett'ects the. disengagement of its contact members 31 and Then a fault occurs on the source 1 that renders that source inoperative for. supplying energy to the control circuit 5, the voltage relay 16 becomes sufficiently de energized to permit the re-engagementof, its

contact members 31 and 32, whereupon'the.

winding 18 is short-circuited through the switch 24. of the interrupter 10 and is rendered ineffective for maintaining the relay 13 in its energized position. The resistor 33 is provided to prevent a short-circuit on the source 1.

, Upon the de-energization of the operating coil 18 of the relay 13 and the consequent opening of the switches 19 and 20 and. the re-engagement of the cont-act members 21 and 22, the voltage relay 16 is disconnected from the source 1 and a circuit is completed by the contact members 22 for energizing the operating coil 34: of the relay 1%. The relay 14, when actuated, closes its two switches 35 and 36 and opens two. sets of contact members 2? and 37, respectively.

The switch 35, when closed,energizes the operating coil of the interrupter 11 where.

upon the sameis actuated to close two switches 38 and 39 and to opentwo switches 40 and 41, respectively. The switch 38, when closed,

connects the source 2 to the control circuit 5 through the switch 25, of the interrupter 10, which closed upon the de-energization ofv the holding coil of the interrupter 10.

The switch 36, when closed, completes a circuit from the source 2 of energy through a set of contact members 12 of the relay 15 and the contact members 21 of the relay 13, the relay bus conductor 29 and, the operating coil 30 of the voltage relay 16 to ground, thereupon. energizing therelay 16 inv accord ance with the potential of the source It may be assumed that the source 1 remains inoperative and that the source 2 now also becomes inoperative; as, for instance, by reason of low voltage. The relay 16 effects the re-engagement of 1tscontact members 31 and 32, whereupon the winding 341 of the relay 14 is short-c-ircuited by the contact members 31 and 32 through the switch 39 ot the interrupter 11 and the engaged contact members 22 of the relay 13. The relay 14: is immediately actuated to its die-energized position and the interrupter 11 is also no tuated to its de-energized, or open, position.

If the sources 1 and 2 remain inoperative, the operating coil l3 of the relay 15 becomes energized by reason of its being coni'iected between the source 3 and ground through the contact members 22 and 37 of the relays 13 and 14, respectively. The relay 15 is operated to close its switches and a5 and to open its contact members 2-8 and The closing of the switch l l effects the actuation of the interrupter 12 whereupon its switches 16 and %7 are closed and the switch l8 opened. The switch 16 connects the source 3 to the control circuit 5 through the switches 40 and of the interrupters 11 and 10, respectively.

If the source 3 should become inoperative while sources 1 and 2 are inoperative, the relay 15 would be tie-energized and the interrupter 12 opened, as explained above for the operation of the relays 13 and 1 1. The opening of the interrupter 12 would close the switch 48 whereupon the source 4 of energy would be connected to the control circuit 5 through the switches 48, and 25 in series.

Upon the return to normal of any one of the first three sources of energy, the corresponding relay 13, 14 or 15 would be immediately energized to close the corresponding interrupter to reconnect the normal source to the control circuit 5. The operation of the relay 13 will effect the opening of switches 21 and 22 to preclude the energization of the relays let and 15 so long as such switches remained open. Similarly, the op eration of the relay 1% would preclude the energization of the relay 15 by reason of the opening of switch 87.

It will thus be observed that the connection of any one of the sources of energy to the control circuit 5 is so selectively effected, in a predetermined sequence, that the first normal source in the predetermined se quence will be connected to the control circuit, irrespective of the condition of the other sources or" energy.

Our invention is not limited to the specific arrangement of the apparatus employed nor to the specific types of apparatus illustrated since various modifications may be made in the arrangement thereoi within the spirit and scope of the invention, as set forth in the appended claims.

YFe claim as our invention 1. The combination with an electrical circuit and three or more sources of energy for energizing the circuit, of selective means for connecting the sources of energy to the circuit in a predetermined sequence in response to predetermined conditions, for pre cluding energization of the circuit by more than one of the sources simultaneously, and for automatically reconnecting a source of energy previously disconnected in said sequence to the circuit in response to predetermined conditions.

2. The combination with an electrical circuit and 1? sources of energy for energizing the circuit, of means for connecting a predetermined source to the circuit and then connecting the other sources to the circuit in a predetermined sequence onlv when the preceding sources in the sequence become inoperative, tor precluding en-ergization ot the circuit by more than one of the sources siinultaneously, and to; automatically disconnecting the last source connected in said sequence and connecting an earlier source in the sequence to the circuit in response to predetermined conditions.

8. The combination with an electrical cir cuit and sources of energy for energizing the circuit, of means for connecting one of the sources to the circuit only when the preceding sources, in a predetermined sequence, are faulty, maintaining that connection until a preceding source in the predetermined sequence is cleared of the fault and then connecting said preceding source to the circuit, thereby also simultaneously disconnecting the former source.

l. The combination with an electrical circuit and N sources of energy for energizing the circuit, of means for connecting one 01 the sources to the circuit, in accordance with a predetermined sequence of selection, when the previous sources in the sequence ecome inoperative, tor precluding energization of the circuit by more than one of the sources simultaneously, and for automatically disconnecting the last source connected in said sequence and connecting an earlier source in the sequence to the circuit in response to predetermined conditions.

5. The combination with an electrical circuit and N sources of energy for energizing the circuit, of N-1 relays for controlling the selective connection of one of the sources to the circuit when the previous sources, in a predetermined sequence, are inoperative, and means whereby each relay, when efi ective, renders the other relays in subsequent sequence thereto inetl'ective.

6. The combination with an electrical circuit and N sources of energy for energizing the circuit, of means for automatically connecting the circuit to the first one of the several sources that is normal, in a predetermined sequence of selection, and for precluding the connect-ion oithe circuit to any source subsequent in the sequence while said normal source is normal.

7. The combination with an electrical circuit and N sources of energy for energizcuit and N sources of energy for energizing the circuit, of means for automatically connecting the circuit to one of the several sources, in apredetern'iinetl sequence of selection, when the preceding sources are inoperative, and for automatically and selectively disconnecting the circuit from said source to connect the same to a preceding source, in the predetermined sequence, that has meanwhile been rendered operative.

8. The combination with an electrical ciring the circuit, of a plurality of relays severally associated with each source of energy and adapted to he actuated in accordance with the condition thereof, means controlled by the relays forconnecting each source to the circuit, and means controlled by the relays of one source for effecting the actuation of the corresponding connecting means and for rendering predetermined relays associated with the other sources inefiectiye.

9. The combination with an electrical circuit and a plurality of sources of energy tor energizing the circuit, of a relay for each source of energ connecting means for each source and the circuit controlled by the corresponding relay, and means controlled by each relay for rendering other relays ineffective under predetermined conditions.

10. The combination with an electrical circuit and a plurality of sources of energy for energizing the circuit, and adapt-edto be connected thereto in a predetermined sequence, of a r lay for each source responsive to the condition thereof for effecting the connection or the source to the circuit only when the preceding sources in the predeten mined sequence are inoperative, and means whereby the connection of only one source of energy to the circuit is permitted.

In testimony whereof, we have'hereunto subscribed our names this 31st day of May, 1921.

CHARLES McL, MOSS. FRANK M; BILLHIMER.

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